Determining age is an important step when assessing growth, mortality, and yield ofcultivated and wild populations, but studies linking shell growth marks in the pearloyster Pteria sterna with the age of individuals are lacking. Thirtyjuveniles (20.0 ± 1.2 mm shell height), collected from a winter spatfall, were marked withthe fluorochrome calcein and kept in the field in culture containers. After day 16, thejuveniles were cleaned and their shells cut along the sagittal axis to determineperiodicity of micro growth bands formed in the inner shell layers and to estimate age.During this trial, fluorescent calcein marking succeeded in individuals larger than 20 mmshell height; these formed an average of 15 micro growth bands over the 16 days,representing 1 band per day. The marker created a wide fluorescent band containing threemicro growth marks, suggesting that calcein was incorporated into the shell over the firstthree days. The use of calcein was found to be an accurate method for validating the microgrowth band frequency of formation in P. sterna juveniles, which in turncan help to estimate age.